Zeranol: a review of the metabolism, toxicology, and analytical methods for detection of tissue residues

Abstract Zeranol, an anabolic agent produced commercially for use in cattle and sheep intended for human consumption, is noncarcinogenic, nonteratogenic, and nonmutagenic. Toxicity testing (acute, subacute, and chronic) in several species by various routes of administration reveals an extremely low toxicity, the oral rat LD 50 exceeding 40 g/kg. Postmortem abnormalities of high-dose animals are attributed to the effects of the compound on the endocrine system. Both zeranol itself and zearalanone, the major Phase I metabolite in the seven species studied, are excreted in the feces and in the urine, either free or as sulfates/glucuronides. A minor urinary metabolite has been identified as taleranol, an epimer of zeranol. Both metabolites exhibit a very low order of toxicity (oral rat LD 50 exceeding 10 g/kg in both cases), and both exhibit less biological activity than the parent compound. The four types of analytical methods which have been employed for the specific detection and quantitation of residues of zeranol in edible tissues are: (1) gas chromatography (detection limit = 20 ppb), (2) high-performance liquid chromatography (detection limit = 5 ppb), (3) thin-layer chromatography (detection limit = 1–3 ppb), and (4) radioimmunoassay methods (detection limit to be published). The following residue levels were determined radiometrically in tissue samples taken 45 days after implantation of cattle with 36 mg tritiated zeranol: ≤2 ppb in liver, ≤1 ppb in kidney and fat, and ≤0.2 ppb in muscle and plasma. A no-effect level (NEL) of 0.225 mg/kg was determined as the highest oral dosage of zeranol which produced no estrogenic effects in female monkeys. Based on the NEL, a tolerance level for tissue residues of zeranol was calculated as 315 ppb.